Exploring Mysterious Bubbles of Nothing Eating Spacetime

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In summary, physicists are studying the idea of spacetime being unstable and forming bubbles of nothing, which was proposed in 1982. However, this idea is likely incorrect and the paper itself is focused on using it to understand the big bang. The concept of a False Vacuum is also mentioned, along with some string theory concepts. This discussion requires a valid source, which is the linked paper, for a proper understanding and further debate.
  • #1
Trollfaz
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https://www.google.com/amp/s/www.vi...terious-bubbles-of-nothing-that-eat-spacetime
As far as I know this article summarizes a paper. The paper explores an idea proposed by Written in 1982 about spacetime being unstable and forming a bubble of nothing, which is likely wrong to me. Even the authors wrote this paper to discuss what it can tell us about the big bang instead of trying to support this idea.
 
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  • #3
Just want to open a discussion
 
  • #4
I think the article is just discussing something called a False Vacuum, but with some string theory concepts thrown in.
 
  • #5
Trollfaz said:
As far as I know this article summarizes a paper.

Then we need the paper. The article itself is not a valid source and is not a good basis for discussion.
 
  • #6
Trollfaz said:
Just want to open a discussion

We need a valid source--the paper--as a basis for discussion.
 
  • #8

Related to Exploring Mysterious Bubbles of Nothing Eating Spacetime

1. What are mysterious bubbles of nothing eating spacetime?

Mysterious bubbles of nothing eating spacetime, also known as vacuum bubbles or false vacuum bubbles, are theoretical phenomena in which a tiny bubble of empty space expands at the speed of light, consuming everything in its path, including spacetime itself.

2. How are these bubbles formed?

According to current theories, these bubbles can be formed during phase transitions in the early universe or as a result of quantum fluctuations. They can also be artificially created in particle accelerators or through advanced technologies.

3. Are these bubbles dangerous to us?

Currently, there is no evidence to suggest that these bubbles pose any immediate danger to us. However, if one were to form near Earth, it could potentially cause disruptions to the fabric of spacetime and potentially lead to catastrophic consequences.

4. Can we detect these bubbles?

Currently, there is no direct way to detect these bubbles as they are extremely small and move at the speed of light. However, scientists are constantly developing new technologies and theories to better understand and potentially detect these mysterious bubbles.

5. What implications do these bubbles have for our understanding of the universe?

The existence of these bubbles challenges our current understanding of the universe and the laws of physics. They also have the potential to explain certain cosmological mysteries, such as the accelerating expansion of the universe. Further research and exploration of these bubbles could lead to groundbreaking discoveries and advancements in our understanding of the universe.

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